Krom Schroder FCU 500 Operating Instructions Manual

Brand: Krom Schroder

Model: FCU 500

Type: Operating Instructions Manual

This manual is also suitable for

FCU 505

DK S N P GR

➔ www.docuthek.com

D GB F NL I E

TR CZ PL RUS H

Safety

Please read and keep in a safe place

Please read through these instructions

carefully before installing or operating. Following the

installation, pass the instructions on to the opera-

tor. This unit must be installed and commissioned

in accordance with the regulations and standards

in force. These instructions can also be found at

www.docuthek.com.

Explanation of symbols

• ,  ,  ,  ... = Action

▷ = Instruction

Liability

We will not be held liable for damage resulting from

non-observance of the instructions and non-com-

pliant use.

Safety instructions

Information that is relevant for safety is indicated in

the instructions as follows:

DANGER

Indicates potentially fatal situations.

WARNING

Indicates possible danger to life and limb.

CAUTION

Indicates possible material damage.

All interventions may only be carried out by qualiﬁed

gas technicians. Electrical interventions may only be

carried out by qualiﬁed electricians.

Conversion, spare parts

All technical changes are prohibited. Only use OEM

spare parts.

Changes to edition 09.4

The following chapters have been changed:

– Replacing the protective system/furnace zone

control

– Certification

Contents

Operating instructions

GB-1

0506

Translation from the German

Protective system control FCU 500

Furnace zone control FCU 505

Protective system control FCU 500

Furnace zone control FCU 505 ............

Contents ..............................

Safety.................................

Checking the usage .....................

Installation ............................

Replacing the protective system/furnace

zone control ...........................

Cable selection.........................

Wiring ................................4

Connection diagram ....................6

FCU 500 ..............................6

FCU 505 .............................. 7

IC 20 connected to FCU..F1 ...............8

IC 20 E connected to FCU..F1..............9

IC 40 connected to FCU..F1 ..............10

RBW valve connected to FCU..F2 .......... 11

Frequency converter connected to FCU..F2 ..12

Adjustment ...........................

Commissioning........................

Manual mode .........................4

Assistance in the event of malfunction ....5

Replacing the fuse ...................... 21

Parameters and values .................

Legend...............................4

Technical data ........................4

Designed lifetime .......................25

Logistics .............................5

Accessories ..........................5

Certification ..........................6

Contact ..............................6

Safety

Contents

GB-2

Checking the usage

The protective system control FCU 500 and furnace

zone control FCU 505 are designed for the moni-

toring and controlling of central safety functions in

multiple burner systems on an industrial furnace.

The FCU500 controls multiple zones acting as the

central protective system control. The FCU505 is

used for protective system and capacity control in

individual furnace zones.

Type code

Code Description

FCU 500

FCU 505

Protective system control

Furnace zone control

Mains voltage: 120 V AC, 50/60 Hz

230 V AC, 50/60 Hz

No valve proving system

With valve proving system

Capacity control:

none

with interface for actuator IC

with interface for RBW

Temperature monitoring:

none

with temperature monitoring

Connection terminals:

none

screw terminals

spring force terminals

Part designations

 LED display for program status and fault

messages

 Reset/Information button

 On/Off button

4 Type label

5 Connection for opto-adapter

6 Power module, detachable

7 Power module type label

8 Parameter chip card

Type designation (FCU…), construction stage, input

voltage – see type label.

FCU

Installation

▷

Installation position: vertically upright, horizontal

or tilted to the left or right.

▷

The FCU mounting is designed for horizontally

aligned 35 × 7.5 mm DIN rails.

▷

If the DIN rail is aligned vertically, end clamps are

required (e.g. Clipﬁx 35 by Phoenix Contact) to

prevent the FCU from slipping.

▷

Install in a clean environment (e.g. a control

cabinet) with an enclosure ≥ IP 54, whereby no

condensation is permitted.

GB-3

Replacing the protective system/

furnace zone control

 Disconnect the system from the electrical power

supply.

 Disengage the FCU from the DIN rail.

4 5

6 Transfer the parameter values from the old FCU

to the new FCU.

▷ Remove the parameter chip card from the old

FCU and insert into the new FCU.

CAUTION

Malfunction (fault message

)! The old and

new FCUs must have the same hardware conﬁ-

guration (see type designation on type label). The

parameter chip card is not backward compatible.

If the parameter chip card has been operated in

an FCU with more recent ﬁrmware, it cannot be

used in a device with older ﬁrmware.

▷

Alternatively, the parameters values can be read

from the old FCU and then read back into the

new FCU using the separate BCSoft software,

see pages 13 (Adjustment) and 25 (Ac-

cessories).

7 Slide the power module back on.

8 Mount the FCU on the DIN rail again.

9 Reconnect the connection terminals.

0 Switch the system on again, see page 13

(Commissioning).

▷

Fault message

: Parameter chip card from

FCU construction stage B or above has been

inserted into FCU construction stage A, see also

page 15 (Assistance in the event of malfunc-

tion).

Cable selection

▷

Use cables suitable for the type of operation and

complying with local regulations.

▷

Signal and control line for screw terminals

max. 2.5mm

, for spring force terminals max.

1.5mm

▷

Do not route FCU cables in the same cable duct

as frequency converter cables or cables emitting

strong ﬁelds.

▷

Control lines must fulﬁl the requirements of

EN60204-1, Chapter12.

▷ Avoid external electrical interference.

GB-4

Wiring

▷

Do not reverse phase L1 and neutral conduc-

tor N.

▷ Do not install different phases of a three-phase

current system at the inputs.

▷ Do not connect voltage to the outputs.

▷

A short-circuit on the outputs causes one of the

replaceable fuses to trip.

▷

Ensure that the inputs at terminals 1 to 4 and

44 are only supplied with 24 V DC.

▷

24 V DC power supply: + at terminal 62, - at

terminal 61.

▷

Ensure that the 24 V DC outputs at terminals

41 and 42 are not connected to mains voltage.

▷ Do not set the remote reset so that it operates

automatically in cycles.

▷ Wire the safety circuit inputs via contacts (relay

contacts) only.

▷ The unit features an output for fan control (termi-

nal58). This single-pole contact can be loaded

with a max. of 3A. The max. start-up current of

the fan motor may not exceed a value of max.

6A for 1s– use an external contactor if required.

▷

The limiters in the safety interlock (linking of all the

relevant safety control and switching equipment

for the use of the application, for example, safety

temperature limiter) must isolate terminal46 from

the voltage supply. If the safety interlock is in-

terrupted, the display shows a blinking

a warning signal and all of the FCU’s control

outputs are disconnected from the electrical

power supply.

▷

Connected control elements must be equipped

with protective circuits in accordance with the

manufacturer’s instructions. The protective circuit

prevents high voltage peaks which can cause

malfunctioning of the FCU.

▷

Functions of terminals 51, 65, 66, 67 and 68 are

dependent on parameter values:

Terminal Dependent on parameter

51 69

65 70

66 71

67 72

68 73

See page 22 (Parameters and values).

 Disconnect the system from the electrical power

supply.

 Before wiring the FCU, ensure that the yellow

parameter chip card has been installed in the

FCU– see page3 (Replacing the protective

system/furnace zone control).

▷

Screw terminals or spring force terminals are

available for the FCU– see page25 (Acces-

sories).

 Wire as shown on the connection diagram– see

page6 (Connection diagram).

▷ Ensure a good PE (ground) wire connection to

the burner control units and burners.

FCU..H

▷

Use type K NiCr-Ni, type N NiCrSi-NiSi or type S

Pt10Rh-Pt Class 1 double thermocouples only.

Thermocouple

Temperature range

(°C)

Type K NiCr-Ni -40 to 1000

Type N NiCrSi-NiSi -40 to 1000

Type S Pt10Rh-Pt 0 to 1600

▷

Parameter 22 = 1: Type K double thermocouple

NiCr-Ni

▷

Parameter 22 = 2: Type N double thermocouple

NiCrSi-NiSi

▷

Parameter 22 = 3: Type S double thermocouple

Pt10Rh-Pt

▷ STM:

Parameter 20 = 1: High temperature operation

with STM. Position the double thermocouple at

the coldest point in the furnace so that it can

reliably detect whether the spontaneous igni-

tion temperature (>750°C) has been exceeded.

▷ STL:

Parameter 20 = 2: Maximum temperature moni-

toring using STL. Position the double thermo-

couple at the warmest point in the furnace so

that it can reliably detect whether the maximum

permitted temperature has been exceeded.

▷ STL and STM:

Parameter 20 = 3: High temperature operation

with STM and maximum temperature monitor-

ing with STL. Position the double thermocouple

in the furnace in such a way that it can reliably

detect whether the spontaneous ignition tem-

perature (>750°C) has been exceeded and

also whether the maximum permitted furnace

temperature has been exceeded.

FCU..C

▷

Parameter 51 = 1: Tightness test before furnace

start-up.

▷

Parameter 51 = 2: On; tightness test after fur-

nace shut-down, after a fault lock-out or after

mains on.

▷

Parameter 51 = 3: On; tightness test before

furnace start-up and after furnace shut-down.

▷

Parameter 51 = 4: Permanent via proof of closure

function (POC).

GB-5

Safety interlock output in the case of higher

power requirement

▷

The burner start enable signal is issued to the

connected burner control units or automatic bur-

ner control units via the safety interlock output

(terminal 57).

▷

For burner control units or automatic burner

control units whose safety interlock input has

a power consumption of ≤ 2 mA, the power

(max. 0.5 A, cos ϕ = 1) of the FCU is sufﬁcient

to directly activate them.

▷

In the event that a higher output current is re-

quired, the output current can be increased by

means of a contact multiplier using two contac-

tors. Design the circuit as follows:

61 62

FCU 500

5AT

STW/

STB

+ - + -

+24 V

41 42 44 45

53 54 55 56 57 5849 50 51 52

LDS

90°➔0°

0°➔90°

13 14 15 16 17 185 6 7 8 11 123 41 2

+24 V DC

k1k1

k2k2

Input BCU/IFD

STW/

STB

3.15AT

F = I

× 0.6

▷

BCU with power supply for valves and

ignition transformer via safety interlocks

(terminal 5)

≤ 2.5 A

N N

230 V AC

BCU 4xx

1 2

7 8 119 10 12 13 14 15

24 25 26 2718 19 20

50 5130 31 32 33 34 35 36 37 38

3 4

max. 2 A

253 V

max. 2 A

253 V

▷

In the event that a higher output current is re-

quired, the output current can be increased by

means of a contact multiplier using three contac-

tors. Design the circuit as follows:

61 62

FCU 500

STW/

STB

+ - + -

+24 V

41 42 44 45

53 54 55 56 5749 50 51 52

13 14 15 16 17

5 6 7 8

11 12

3 41 2

k3 k1

Input BCU

Terminal 5

Input BCU

Terminal 22

STW/

STB

F = I

× 0.6

GB-6

Connection diagram

FCU 500

▷ Legend– see page24 (Legend).

61 62

FCU 500

5AT

+24 V

41 42 44 45

47 48

53 54 55 56 57 5849 50 51 52

0 V

PZL

PZH

LDS

90°➔0°

0°➔90°

PZL

PDZ

+24 V DC

K2 K1

k11

k21

13 14 15 16 17 1811 123 41 2

+ - + -

5 6 7 8

P69

P72

P70

P71 P73

Output

Air

min

Air

STM/

STL

Gas

min

3.15AT

0.6 x I

× 0.6

Gas

max

GB-7

FCU 505

▷ Legend – see page 24 (Legend).

61 62

FCU 505

5AT

+24 V

41 42 44 45

47 48

53 54 55 56 57 5849 50 51 52

0 V

PZL

PZH

LDS

90°➔0°

0°➔90°

PZL

PDZ

+24 V DC

K2 K1

k11

k21

13 14 15 16 17 1811 123 41 2

+ - + -

5 6 7 8

P69

P72

P70

P71 P73

Output

Air

min

Air

STM/

STL

Gas

min

Gas

max

3.15AT

× 0.6

0.6 x I

GB-8

IC 0 connected to FCU..F

▷ Parameter 40 = 1.

▷

Continuous control via three-point step controller.

61 62

FCU 500

5AT

+24 V

41 42 44 45

47 48

53 54 55 56 57 5849 50 51 52

LDS

90°➔0°

0°➔90°

13 14 15 16 17 1811 12

3 41 2

3 2 116 67 4812 1115 13

S3 S4

S11

S10

0°

90°

IC 20

S1S2

90°➔0°

0°➔90°

STW/

STB

+ - + -

6 7 8

3.15AT

Output

GB-9

IC 0 E connected to FCU..F

▷ Parameter 40 = 1.

▷ Continuous control via analogue input.

61 62

FCU 500

5AT

+24 V

41 42 44 45

47 48

53 54 55 56 57 5849 50 51 52

LDS

90°➔0°

0°➔90°

13 14 15 16 17 1811 12

3 41 2

20 19 18 3 2 167 4812 11

S1 0

OUT

0°

➔

90°

0°

90°

➔

0°

IC 20..E

517

+ +

1 2 3 4 5 6

µC

131516

STW/

STB

+ - + -

6 7 8

3.15AT

GB-10

IC 40 connected to FCU..F

▷ Parameter 40 = 2.

▷ Continuous control via analogue input.

▷ Set IC 40 to operating mode 27, see operating

instructions Actuators IC 20, IC 40, IC 40S.

61 62

FCU 500

5AT

+24 V

41 42 44 45

47 48

53 54 55 56 57 5849 50 51 52

LDS

90°➔0°

0°➔90°

13 14 15 16 17 1811 12

3 41 2

IC 40

19 18 16 15 14 12 11 10 8 7 5 4 2 1

22 21 20

R..

STW/

STB

+ - + -

5 6

7 8

3.15AT

GB-11

RBW valve connected to FCU..F

▷ Parameter 40 = 3.

Continuous control via three-point step

controller

61 62

FCU 500

5AT

+24 V

41 42 44

47 48

53 54 55 56 57 5849 50 51 52

LDS

13 14 15 16 17 1811 12

3 41 2

R B W

90°➔0°

0°➔90°

RBW

COM

AUTO

STW/

STB

+ - + -

5 6 7 8

Continuous control via analogue input

+ F -

0°➔90°

OUT

RBW

61 62

FCU 500

5AT

+24 V

41 42 44

47 48

53 54 55 56 57 5849 50 51 52

LDS

13 14 15 16 17 1811 12

3 41 2

COM

AUTO

+ - + -

5 6 7 8

PLC

STW/

STB

GB-12

Frequency converter connected to FCU..F

▷ Parameter 40 = 4.

▷ Continuous control via speed-controlled fan.

61 62

FCU 500

5AT

+24 V

41 42 44

47 48

53 54 55 56 57 5849 50 51 52

LDS

13 14 15 16 17 1811 12

3 41 2

PDZ

DI 3DI 2DI 1

0–100%

COM

AUTO

+ - + -

5 6 7 8

PLC

Target = actual

STW/

STB

GB-13

Adjustment

In certain cases, it may be necessary to change the

parameters set at the factory. Using the separate

software package BCSoft and a PC opto-adapter, it

is possible to modify parameters on the FCU, such

as the pre-purge time or the behaviour in the event

of a ﬂame failure.

▷

The software package and the opto-adapter

are available as accessories– see page25

(Accessories).

▷

Changed parameters are saved on the integrated

parameter chip card.

▷

The factory settings are secured with a program-

mable password.

▷

If the password has been changed, the end cus-

tomer can look up the changed password in the

plant documentation or ask the system supplier.

Commissioning

▷

During operation, the 7-segment display shows

the program status:

––

Device Off

Start-up position/standby

Switch-on delay/min. pause time

Waiting for purge signal from furnace FCU

Waiting for start enable

Approaching minimum capacity

“No ﬂow” state check on fan

Fan run-up time t

Approaching maximum capacity

Air pressure cut-out check

Pre-purge

Approaching ignition capacity

Valve check

Controller enable switch-on delay

Waiting for burner operating signal

Operation/controller enable

Post-purge

Controlled air ﬂow

U I

Remote control (with OCU)

Data transfer (programming mode)

X.X.

High temperature mode

0.0.

(blinking dots) Manual mode

WARNING

Risk of explosion! Check the system for tightness

before commissioning.

Do not start the FCU until you are certain that the

wiring is correct, the parameters have been set

correctly and all input and output signals are be-

ing processed perfectly by means of conducting

a function check and reading the parameters on

the device.

 Switch on the system.

▷ The display indicates

––

 Switch on the FCU by pressing the On/Off button.

▷ The display indicates

▷

If the display blinks (fault), reset the FCU by press-

ing the Reset/Information button, see also page

15 (Assistance in the event of malfunction).

 Apply the start-up signal to terminal1.

▷ The display indicates

The safety interlocks

are checked during the switch-on delay time/

min. pause time.

▷ The display indicates

. The fan starts.

▷ The display indicates

. The air deﬁciency cut-

out check starts.

▷ The display indicates

. Pre-purge starts.

▷ FCU..C1: the valve check runs in parallel to pre-

purge. If the valve check lasts longer than pre-

purge, the display indicates

▼

GB-14

▷

The display indicates

. After pre-purge (and the

end of the valve check on FCU..C1), the valves

in the gas inlet section are opened.

▷

The display indicates

. The FCU issues the

enable signal to the burner control units to start

the burners.

High temperature operation

The FCU..H1 is ﬁtted with an integrated temperature

module for high temperature operation. As soon as

the FCU has received the signal from the connected

double thermocouples that the temperature deﬁned

in parameter24 has been reached, a signal is sent

to the high temperature inputs of the burner control

units by the output at terminal 18. If voltage is applied

to the high temperature inputs, the burner ﬂames will

no longer be monitored by the burner control units.

WARNING

Risk of explosion! High temperature operation is

only permitted if the temperature in the furnace

chamber is so high that the gas/air mixture is reli-

ably combusted.

In countries where EN746/NFPA86 is applicable,

if the furnace wall temperature is greater than or

equal to 750°C (1400°F), the ﬂame may be moni-

tored by a fail-safe temperature monitoring device

that complies with the standard.

Only if the temperature is greater than or equal

to 750°C (1400°F) may voltage be applied to the

high temperature inputs of the burner control units.

Comply with the local safety regulations.

▷ In high temperature mode, the two dots in the

display are lit permanently.

▷

The ﬂame control system is placed out of op-

eration.

▷

Once the furnace temperature falls below the

value deﬁned in parameter24, terminal18 is

isolated from the voltage supply. The burner con-

trol units continue operating with ﬂame control,

depending on their setting.

Manual mode

▷

For adjustment of the furnace system or for

fault-ﬁnding.

▷

In Manual mode, the FCU operates indepen-

dently of the status of the inputs for start-up

signal (terminal1), controlled air ﬂow (terminal2)

and remote reset (terminal3). The function of the

controller enable/emergency stop input (termi-

nal46) is retained.

▷ Manual mode is terminated by switching off the

FCU or in the event of a power failure.

▷

Parameter 67 = 0: Manual mode unlimited in

time. The furnace may continue to be operated

manually in the event of failure of the control

system or the bus.

▷

Parameter 67 = 1: The FCU will terminate Manual

mode 5minutes after the last time the Reset/

Information button is pressed. It switches to the

start-up position/standby(display

 Switch on the FCU while holding the Reset/In-

formation button. Hold the Reset/Information

button until the two dots in the display start to

blink.

▷ If the Reset/Information button is pressed, the

current step in Manual mode is shown. After

the button has been held for 1 second, the next

step will be shown. The FCU now executes its

program sequence until the display indicates

FCU..F with IC 0

▷

Following controller enable (display

0.8.

), actuator

IC20 can be opened and closed as required.

 Press the Reset/Information button.

▷

If the button continues to be held down, the

actuator opens further until maximum capacity

has been reached.

▷ The display indicates

A.1.

with blinking dots.

▷

Once the button has been released, the butterﬂy

valve stops in the relevant position.

 Press the Reset/Information button again.

▷

If the button continues to be held down, the

actuator closes further until minimum capacity

has been reached.

▷ The display indicates

A.0.

with blinking dots.

▷ A change of direction takes place each time the

button is released and pressed again. When the

butterﬂy valve has reached its ﬁnal position, the

dots disappear.

FCU 500..F with IC40, FCU500..F with

RBW or frequency converter

▷

Following controller enable (status display

0.8.

), it

is possible to approach binary positions between

minimum and maximum capacity.

GB-15

Assistance in the event of

malfunction

DANGER

Electric shocks can be fatal! Before working on

possible live components, ensure the unit is discon-

nected from the power supply.

Fault-clearance must only be undertaken by author-

ized trained personnel.

▷ Faults may be cleared only using the measures

described below.

▷

If the FCU does not respond even though all

faults have been remedied: remove the unit and

return it to the manufacturer for inspection.

? Faults

! Cause

• Remedy

? The 7-segment display does not light up.

! Mains voltage is not applied.

• Check the wiring, apply mains voltage (see type

label).

1 0

? The display blinks and indicates

! Actuation of the remote reset input is faulty.

! Too many remote resets. More than 5× resets

have been conducted within the last 15minutes,

either automatically or manually.

! Consecutive fault caused by a previous fault

whose actual cause has not been remedied.

• Pay attention to previous fault messages.

• Remedy cause.

▷ The cause will not be remedied by performing a

reset every time a fault lock-out occurs.

• Check whether remote reset complies with

standards (EN746 allows resetting only under

supervision) and correct if necessary.

▷ The FCU may only be reset manually under su-

pervision.

• Press the Reset/Information button on the FCU.

2 0

? The display blinks and indicates

! Voltage is applied to the output at terminal 56.

• Check the wiring and ensure that the voltage

outputs and inputs have the same polarity and

are not reversed.

! The unit has suffered an internal fault in the power

module.

• Replace the power module.

2 1

? The display blinks and indicates

! Inputs 51 and 52 are activated simultaneously.

• Check input 51.

▷

Input 51 may only be activated if the valve is

open.

• Check input 52.

▷ Input 52 may only be activated if the valve is in

the ignition position.

2 2

? The display blinks and indicates

! Valve IC 20 has been wired incorrectly.

• Check the wiring. Wire the outputs and inputs

of connection terminals 52–55 as shown in

the connection diagram – see page 8 (IC

20 connected to FCU..F1).

! The unit has suffered an internal fault in the power

module.

• Replace the power module.

2 3

? The display blinks and indicates

! The valve position is not constantly signalled

back to theFCU.

• Check the wiring and ensure that the open/igni-

tion position of the valve is constantly signalled

back via terminal52.

2 4

? The display blinks and indicates

! Faulty activation via the bus. Requirements for

“Open” and “Close” set simultaneously.

• Ensure that “Open” and “Close” are not activated

simultaneously.

3 0

? The display blinks and indicates

! Abnormal data change in the parameters set for

theFCU.

• Reset the parameters to their original values using

the BCSoft software.

• Establish the cause of the fault to avoid repeat

faults.

• Ensure that the cables have been installed prop-

erly– see page3 (Cable selection).

GB-16

• If the measures described above do not help,

remove the unit and return it to the manufacturer

for inspection.

3 1

? The display blinks and indicates

! Abnormal data change in the parameters set for

theFCU.

• Reset the parameters to their original values using

the BCSoft software.

•

Establish the cause of the fault to avoid repeat faults.

• Ensure that the cables have been installed prop-

erly– see page3 (Cable selection).

• If the measures described above do not help,

remove the unit and return it to the manufacturer

for inspection.

3 2

? The display blinks and indicates

! Supply voltage too low.

• Operate the FCU in the speciﬁed mains voltage

range (mains voltage +10/-15%, 50/60Hz).

! The unit has suffered an internal fault.

• Remove the unit and return it to the manufacturer

for inspection.

3 3

? The display blinks and indicates

! Faulty parameterization.

• Check parameter settings using BCSoft.

! The unit has suffered an internal fault.

• Remove the unit and return it to the manufacturer

for inspection.

3 6

? The display blinks and indicates

! The unit has suffered an internal fault.

• Remove the unit and return it to the manufacturer

for inspection.

3 7

? The display blinks and indicates

! Faulty feedback from contactors.

• Check voltage supply to terminal 68 – see

page 5 (Safety interlock output in the case

of higher power requirement).

• Check the setting of parameter73.

3 8

? The display blinks and indicates

! Interruption of signal at the “Fan feedback” input

(terminal44).

• Check voltage supply to terminal44.

• Check the setting of parameter31.

4 0

? The display blinks and indicates

! The gas solenoid valve V1 is leaking.

• Check the gas solenoid valve V1.

! The gas pressure switch DGp

/2 (DGp

¾) for

the tightness test has been set incorrectly.

• Check the inlet pressure.

• Set DGp

/2 (DGp

¾) to the correct inlet pressure.

• Check the wiring.

! The test pressure between V1 andV2 has not

decreased.

• Check the installation.

! The test period is too long.

• Change parameter56 (Measurement time) using

BCSoft.

• If the fault cannot be remedied by doing this,

remove the unit and return it to the manufacturer

for inspection.

4 1

? The display blinks and indicates

! The gas solenoid valve V2 or V3 is leaking.

• Check the gas solenoid valves V2/V3.

! The gas pressure switch DGp

/2 (DGp

¾) for

the tightness test has been set incorrectly.

• Check the inlet pressure.

• Set DGp

/2 (DGp

¾) to the correct inlet pressure.

• Check the wiring.

! The test period is too long.

• Change parameter56 (Measurement time) using

BCSoft.

• If the fault cannot be remedied by doing this,

remove the unit and return it to the manufacturer

for inspection.

4 2

? The display blinks and indicates

! Test volume V

is leaking.

! The gas solenoid valve V3, one of the burner-side

valves or the pipework is leaking.

• Check the gas solenoid valves and pipework.

GB-17

! The gas pressure switch DGp

/2 (DGp

¾) has

been set incorrectly.

• Check the inlet pressure.

• Set DGp

/2 (DGp

¾) to the correct inlet pressure.

• Check voltage supply to terminal 45 (65).

! The set test period V

+V

is too long.

• Change the test period using parameter57.

• If the fault cannot be remedied by doing this,

remove the unit and return it to the manufacturer

for inspection.

4 4

? The display blinks and indicates

! The FCU could not supply one of the test vol-

umes (V

orV

! The FCU could not reduce the pressure of V

orV

• Faulty wiring of the activated valves.

• Check valve actuation.

• Faulty wiring of the pressure switches.

• Check voltage supply to terminal 46 (65).

4 5

? The display blinks and indicates

! Faulty valve actuation.

! Reversed valve connection.

• Check the wiring of the valves.

5 0

? The display blinks and indicates

! Interruption of signal at the “Enable/Emergency

stop” input (terminal46).

• Check voltage supply to terminal46.

• Check the setting of parameter10.

5 1

? The display blinks and indicates

! Short-circuit on one of the outputs of the safety

circuit.

• Check the wiring.

• Check ﬁne-wire fuseF1 (3.15A, slow-acting,H).

▷

The ﬁne-wire fuse can be replaced once the

power module has been removed, see also

page 21 (Replacing the fuse)

• Then check the faultless processing of all input

and output signals.

! The unit has suffered an internal fault in the power

module.

• Replace the power module.

5 2

? The display blinks and indicates

! The FCU is being permanently reset.

• Check voltage supply to terminal3.

• Apply voltage to terminal3 only for reset, approx.

1second.

6 0

? The display blinks and indicates

! The safety temperature limiter (STL) has detected

an overtemperature condition.

• Check the temperature control.

• Check the wiring of terminals 5, 6, 7 and8.

! The double thermocouple is defective.

• Replace the double thermocouple.

• If the fault cannot be remedied by doing this,

remove the FCU and return it to the manufacturer

for inspection.

6 2

? The display blinks and indicates

! A cable discontinuity has been detected in the

thermocouple at terminals 5 and 6.

• Check the wiring of terminals 5 and6.

• Replace the double thermocouple.

• If the fault cannot be remedied by doing this,

remove the FCU and return it to the manufacturer

for inspection.

6 3

? The display blinks and indicates

! A cable discontinuity has been detected in the

thermocouple at terminals 7 and 8.

• Check the wiring of terminals 7 and8.

• Replace the double thermocouple.

• If the fault cannot be remedied by doing this,

remove the FCU and return it to the manufacturer

for inspection.

GB-18

6 4

? The display blinks and indicates

! A malfunction (sensor short-circuit) has been de-

tected in the thermocouple at terminals 5 and6.

• Check the wiring of terminals 5 and 6.

• Replace the double thermocouple.

• If the fault cannot be remedied by doing this,

remove the FCU and return it to the manufacturer

for inspection.

6 5

? The display blinks and indicates

! A malfunction (sensor short-circuit) has been de-

tected in the thermocouple at terminals 7 and8.

• Check the wiring of terminals 7 and 8.

• Replace the double thermocouple.

• If the fault cannot be remedied by doing this,

remove the FCU and return it to the manufacturer

for inspection.

6 6

? The display blinks and indicates

! Limit value of the temperature difference set via

Parameter 23 between the thermocouples at

terminals 5 and 6, and terminals 7 and 8 has

been exceeded.

• Check parameter 23 and adjust correctly.

• Replace the double thermocouple.

• If the fault cannot be remedied by doing this,

remove the FCU and return it to the manufacturer

for inspection.

6 7

? The display blinks and indicates

! The thermocouples are being operated outside

of the allowed temperature range.

• Use type K NiCr-Ni, type N NiCrSi-NiSi or typeS

Pt10Rh-Pt Class 1 double thermocouples:

Thermocouple Temperature range (°C)

Typ K NiCr-Ni -40 to 1000

Typ N NiCrSi-NiSi -40 to 1000

Typ S Pt10Rh-Pt 0 to 1600

7 0

? The display blinks and indicates

! The connected burner control units have not

signalled “Operating position reached (burner

started)” within the time deﬁned by parameter47.

• Check voltage supply to “Operating signal” input

(terminal4).

• Check the setting of parameter47.

7 2

? The display blinks and indicates

! The connected burner control units are not ready

for operation.

• Check voltage supply to terminal67.

• Check the setting of parameter72.

8 9

9 4 9 5 9 6

9 7

9 8 9 9

? The display blinks and indicates

! System fault– the FCU has performed a safety

shut-down. The cause may be a unit defect or

abnormal EMC inﬂuence.

• Ensure that the ignition cable has been installed

properly– see page3 (Cable selection).

• Ensure that the EMC regulations for the sys-

tem are satisﬁed– particularly for systems with

frequency converters – see page 3 (Cable

selection).

• Reset the unit.

• Disconnect the protective system control from

the mains supply and then switch it on again.

• Check mains voltage and frequency.

• If the measures described above do not help, the

unit has probably suffered a hardware defect–

remove the unit and return it to the manufacturer

for inspection.

GB-19

? The display blinks and indicates

! The “no ﬂow” state check of the air pressure

switch has failed.

• Check the function of the air pressure switch.

Before the fan is switched on, there must be no

high signal at the input for air monitoring (termi-

nal47) when air monitoring is activated.

? The display blinks and indicates

! The operating check of the air pressure switch

has failed. The air monitor has not switched after

fan start-up.

• Check the air monitor wiring.

• Check the air pressure switch setpoint.

• Check the function of the fan.

? The display blinks and indicates

! The input signal (terminal48) for the air pressure

switch has dropped out during pre-purge.

• Check the air supply during the purging process.

• Check the electrical wiring of the air pressure

switch.

• Check voltage supply to terminal48.

• Check the air pressure switch setpoint.

1 0

? The display blinks and indicates

! The input signal for the air pressure switch has

dropped out during start-up/operation at position

stepX.

! Failure of the air supply at position stepX.

• Check the air supply.

• Check the air pressure switch setpoint.

? The display blinks and indicates

! The signal for monitoring the max. gas pressure

(terminal50) has dropped out at position stepX.

• Check the wiring.

• Check the gas pressure.

? The display blinks and indicates

! The signal for monitoring the min. gas pressure

(terminal49) has dropped out at position stepX.

• Check the wiring.

• Check the gas pressure.

? The display blinks and indicates

! No “Closed” signal from actuator.

• Check the butterﬂy valve for air and the function

of the limit switches in the actuator.

• Check the wiring.

• Check the actuator.

• If the fault cannot be remedied by doing this,

remove the unit and return it to the manufacturer

for inspection.

? The display blinks and indicates

! No “Open” signal from actuator.

• Check the butterﬂy valve for air and the function

of the limit switches in the actuator.

• Check the wiring.

• Check the actuator.

• If the fault cannot be remedied by doing this,

remove the unit and return it to the manufacturer

for inspection.

GB-20

? The display blinks and indicates

! No “Ignition position” signal from actuator.

• Check the butterﬂy valve for air and the function

of the limit switches in the actuator.

• Check the wiring.

• Check the actuator.

• If the fault cannot be remedied by doing this,

remove the unit and return it to the manufacturer

for inspection.

? The display blinks and indicates

! Internal communication with bus module has

suffered a fault.

• Connected control elements must be equipped

with protective circuits in accordance with the

manufacturer’s instructions.

▷

This prevents high voltage peaks which can

cause malfunctioning of the FCU.

• Use suppressed electrode adapters (1 kΩ).

• If the fault cannot be remedied by doing this,

remove the unit and return it to the manufacturer

for inspection.

! The bus module is defective.

• Replace the bus module.

? The display blinks and indicates

! Incorrect or defective parameter chip card (PCC).

• Only the parameter chip card provided is to be

used.

• Replace defective parameter chip card.

? The display blinks and indicates

! No input signal for the proof of closure switch

during standby.

• Check the wiring.

▷

Mains voltage must be supplied to the FCU if the

valve is closed and no voltage is to be applied

if the valve is open.

• Check that the proof of closure switch and valve

function perfectly, replace defective valves.

? The display blinks and indicates

! The FCU is receiving no information as to whether

the POC switch contact is still open.

• Check the wiring.

• During start-up, mains voltage must be supplied

to the FCU if the valve is closed and no voltage

is to be applied if the valve is open.

• Check that the proof of closure switch and valve

function perfectly, replace defective valves.

? The display blinks and indicates

! BCU waiting for connection to PLC.

• Check whether the PLC is switched on.

• Check the network wiring.

• Check the PLC programming.

• Check whether the correct device name and

IPaddress for the FCU have been entered in

the PLCprogram.

? The display blinks and indicates

! An invalid address has been set on the bus mod-

ule.

• Adapt the bus module’s address with the code

switches to the address allocated in the PLCpro-

gram.

• Check whether the bus module’s address is in

the permitted address range (001toFEF).

? The display blinks and indicates

! The bus module has received an incorrect con-

ﬁguration from thePLC.

• Check whether the correct GSD ﬁle was imported

into the PLC.

? The display blinks and indicates

! The device name for the FCU is invalid in the

PLC program.

▷ Device name on delivery:

not-assigned-fcu-500-xxx

(xxx = code switch setting on the FCU).

▷

The device name must at least consist of the

expression fcu-500-xxx.

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Krom Schroder FCU 500 Operating Instructions Manual

Brand: Krom Schroder

Model: FCU 500

Type: Operating Instructions Manual

This manual is also suitable for

FCU 505

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Krom Schroder FCU 500 Operating Instructions Manual

This manual is also suitable for

Krom Schroder FCU 500 Operating Instructions Manual

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